EP0396397B1 - Cast cutter - Google Patents

Cast cutter Download PDF

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Publication number
EP0396397B1
EP0396397B1 EP90304764A EP90304764A EP0396397B1 EP 0396397 B1 EP0396397 B1 EP 0396397B1 EP 90304764 A EP90304764 A EP 90304764A EP 90304764 A EP90304764 A EP 90304764A EP 0396397 B1 EP0396397 B1 EP 0396397B1
Authority
EP
European Patent Office
Prior art keywords
cast
cutting blade
side plate
cutting
teeth
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP90304764A
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German (de)
French (fr)
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EP0396397A1 (en
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Laboratoires 3M Sante SAS
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Laboratoires 3M Sante SAS
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Publication of EP0396397A1 publication Critical patent/EP0396397A1/en
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Expired - Lifetime legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23DPLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
    • B23D61/00Tools for sawing machines or sawing devices; Clamping devices for these tools
    • B23D61/006Oscillating saw blades
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F15/00Auxiliary appliances for wound dressings; Dispensing containers for dressings or bandages
    • A61F15/02Devices for cutting bandages of any kind, e.g. shears, cast-cutting saws
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23DPLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
    • B23D61/00Tools for sawing machines or sawing devices; Clamping devices for these tools
    • B23D61/02Circular saw blades
    • B23D61/025Details of saw blade body
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T83/00Cutting
    • Y10T83/04Processes
    • Y10T83/0405With preparatory or simultaneous ancillary treatment of work
    • Y10T83/0419By distorting within elastic limit

Definitions

  • This invention relates generally to a cutter, and more particularly to a cast cutter that is adapted to cut through a cast of the type having a rigid shell and soft or flexible wrapping underlying the shell.
  • Casts of the type used to set broken bones are made of plaster, as well as various synthetic resin materials, such as various fiberglass/resin composite casting materials sold by the Minnesota Mining and Manufacturing Company of St. Paul, Minnesota, U.S.A. See, for example, European Patent Publication Nos. 0 035 517; 0 221 669; and 0 226 287; and U.S. Pat. Nos. 4,609,578 and 4,774,937.
  • Advantages of fiberglass/resin composite materials include gas permeability, light weight, and transparency to X-rays.
  • Casts ordinarily consist of a tubular stockinet or an elongate strip or bandage that is placed or wrapped, for example, around a patients injured limb, a layer of synthetic cast padding wrapped around the stockinet, and a plurality of layers of the fiberglass-resin composite or plaster material wrapped around the padding to form a rigid shell.
  • Such cast padding and stockinet is typically made from very flexible woven or nonwoven materials, such as cotton, polyester or other fibers. Cast padding and stockinet will sometimes be collectively referred to herein as "wrapping".
  • Cast shells have typically been removed by using powered oscillating saws, which are noisy and may create a substantial quantity of dust.
  • these saws are usually adapted to be oscillated at a high frequency and low amplitude.
  • the saw can cause burns or cuts in some situations, and notwithstanding any actual danger, patients, especially small children, may be frightened by the saw.
  • U.S. Pat. No. 4,637,391 (Schlein) describes a surgical saw blade for cutting plaster or fiberglass casts. That saw blade is adapted to oscillate at high frequency (e.g., 12,000-14,000 oscillations per minute) and low amplitude.
  • An adjustable depth stop is provided to limit the depth that the saw blade may cut.
  • French Patent No. 2 522 498 describes a surgical cast cutter that includes a saw blade that is oscillated at low amplitude to prevent injury of the patient. That cutter includes the feature of vacuum exhaust of dust particles created in cutting the cast.
  • French Patent No. 2 473 878 (Saito) and U.S. Pat. No. 4,543,718 (Duescher) describe other cast cutters employing oscillatory motion and vacuum exhaust of dust particles.
  • U.S. Pat. No. 590,163 (Pearson) describes a manually operated cast cutting tool having a guard for protecting the patient from the saw blade. That guard includes a foot that is positioned between the cast and the flesh of the patient. A crank-arm is provided for manually rotating the saw blade.
  • U.S. Pat. No. 2,571,527 (Boyer) shows another cast cutter having a guard that is placed between the cast and the patient.
  • U.S. Pat. No. 2,217,923 (Silverman) shows powered and manually operated cast saws that include a guide shoe having a semi-circular groove for receiving the saw blade to accommodate different thicknesses of casts.
  • U.S. Pat. No. 1,269,373 (Brinck) describes a cutting device having a shield plate that is slipped between the cast and the patient, and a circular cutting member that is movable relative to the shield plate as the cast is cut. That device includes a crank for rotating the cutting member, and a pin to limit motion of the cutting member toward the shield plate as the cast is cut.
  • U.S. Pat. No. 2,232,733 shows a powered cast remover that includes a guard that separates the saw blade from the patient and a suction fan for removing the cuttings and placing them in a container.
  • U.S. Pat. No. 4,611,585 (Steidle) describes a cast cutter that includes a fixed center blade that is positioned between the cast and patient and two motor-driven oscillating blades disposed along opposite sides of the center blade. That cutter includes a movable cover hood which apparently ensures that the blades are only exposed when the blades are applied to the plaster cast itself.
  • US-A-2,180,457 discloses a cast cutter comprising a stationary cutting blade including a notch for receiving a cast and a rotatable cutting blade.
  • the rotatable blade has arcuate teeth with pointed ends that bite into the cast and force the same against the stationary cutting blade to cut the cast.
  • Casts have also been cut by embedding wire in the cast material when forming the cast, and pulling the wire to cut the cast.
  • French Patent No. 2,442,628 Wahl
  • French Patent No. 2,401,658 show cutting wires that are embedded in the material of the cast. See, also, West German Patent No. 3,342,918 (Strang).
  • An assembly of the invention is designed to cut completely through a cast of the type having flexible wrapping and a rigid shell in a single cutting operation.
  • the assembly is designed to reduce the production of "saw dust" when cutting casts, and preferably to be driven by manual power.
  • an assembly for cutting through a cast of the type having a rigid shell and flexible wrapping underlying the shell comprising: a side plate having edges defining an elongate notch for receiving the cast, said edges including at least one cutting portion; a cutting blade rotatably mounted on the side plate adjacent the notch; said blade having a plurality of radially outwardly extending teeth, the cutting blade and side plate having substantially flat surfaces in sliding scissor-like engagement; means for rotating the cutting blade relative to the side plate; said teeth being maintained in sliding scissors-like engagement with the cutting portion of the side plate to tension and shear the flexible wrapping of the cast between the cutting portion and the cutting blade as the cutting blade is rotated, characterised in that the teeth are saw teeth which are also configured for saw-like removal of material from the shell of the cast to saw through the shell as the cutting blade is rotated, and further characterised in that the cutting blade is of generally conical or frustoconical overall configuration having a base providing the substantially flat surface of the blade and the
  • An assembly of the invention is indicated generally by the reference numeral 10, and is adapted for cutting through a cast 12 of the type typically having flexible wrapping 14 and a rigid shell 16.
  • wrapping refers to any type of soft or flexible material that underlies the shell 16 of a cast 12, and typically includes a layer of stockinet and a layer of padding of polyester woven, knit or nonwoven material.
  • the assembly 10 generally comprises a side plate 18 having edges generally designated 20 defining an elongate notch 22 for receiving the cast 12, and a cutting blade 24 rotatably mounted on the side plate 18 adjacent the notch 22.
  • Means e.g., crank arm 26
  • the edges 20 defining the notch 22 include at least one cutting portion 28.
  • the cutting blade 24 is maintained in sliding scissors-like engagement with the cutting portion 28 of the side plate 18 to shear the wrapping 14 and shell 16 between the cutting portion 28 and the cutting blade 24 as the cutting blade 24 is rotated.
  • the side plate 18 has forward and rearward ends 30 and 32, and a finger 34 extending generally forwardly from the body 36 of the side plate 18.
  • An edge 28 of the finger 34 forms the cutting portion 28 of the side plate 18.
  • the cutting portion 28 of the edge 28 is smooth and sharp, and preferably formed at an angle A-1 only slightly less than ninety degrees (e.g., 87-89 degrees).
  • the finger 34 is adapted to be placed between the wrapping 14 of the cast 12 and the patient 40 to protect the patient 40 from the cutting blade 24 and to facilitate tensioning and shearing the wrapping 14 between the cutting portion 28 and the teeth 66 of the cutting blade 24.
  • the “left” major surface of the side plate 18, which is the surface in sliding engagement with the cutting blade 24, is substantially flat and smooth.
  • the words “right”, “left”, “rightwardly” and “leftwardly” are used herein merely for convenience, and are used in reference to the intended direction of motion of the assembly 10 indicated by the arrow 41 in the figures.
  • “Rightwardly” refers to the upward direction in figure 2, and “leftwardly” refers to the downward direction in figure 3.
  • “Forward” or “forwardly” refer to the direction indicated by the arrow 41 in figure 3
  • “rearward” or “rearwardly” refer to the direction opposite the arrow 41.
  • the means for rotating the cutting blade 24 preferably comprises the manually operable crank arm 26 shown in figures 1-3, 7 and 8, although a powered drive motor (not shown) or any other suitable drive mechanism could alternatively be provided for rotating the cutting blade 24.
  • An axle 42 is rotatably mounted through a self-lubricating bearing or bushing 44 in the side plate 18.
  • the cutting blade 24 is mounted adjacent one end of the axle 42, and the crank arm 26 is releasably mountable on the axle 42 adjacent the other end thereof.
  • the bushing 44 and the axle 42 are preferably formed of dissimilar metals to reduce. frictional wear between the axle 42 and bushing 44.
  • the bushing 44 may be formed of brass, and the axle 42 formed of hardened steel.
  • the bushing 44 may be either press fit or threadably received in a bore through the side plate 18.
  • the crank arm 26 includes a ratchet mechanism 46 so that the crank arm 26 may be ratcheted relative to the axle 42 to rotate the axle 42 and cutting blade 24, and a handle 48 is provided extending forwardly from the side plate 18 to facilitate operation of the crank arm 26 and pulling the side plate 18 forwardly through the cast 12 as the crank arm 26 is operated.
  • crank arm 26 and ratchet mechanism 46 may take the form of a conventional socket wrench (at 26).
  • a wrench of this type typically has an offset handle (at 26), a four-sided male drive piece (not shown), and the ratchet mechanism 46 for ensuring that the drive piece rotates in only one direction as the handle 26 is reciprocated as indicated by the arrow designated 50 in figure 3.
  • the ratchet mechanism 46 may be of the type that can be adjusted to reverse the action of the mechanism 46 to permit rotating the drive piece in the other direction, although a ratchet mechanism 46 that can only be driven in one direction is preferred (e.g. for clockwise rotation of the cutting blade 24 as indicated by arrow 52 in figures 1 and 8).
  • a spring-loaded bearing (not shown) is spring biased laterally outwardly from the drive piece of the crank arm 26 to securely and releasably mount a conventional socket 54 (figure 2) on the drive piece.
  • An elongate extension or rod (not shown) may be provided between the drive piece and the socket 54 in the event that movement of the crank arm 26 would otherwise be restricted.
  • a plurality (e.g., 4-6) of such extension rods of various lengths may be provided with the assembly 10, with the operator of the assembly 10 selecting the appropriate extension rod and mounting it between the socket 54 and the drive piece of the crank arm 26.
  • the right end of the axle 42 (the upper end in figure 2) is tightly and securely received in the socket 54, and preferably has a polygonal (e.g., hexagonal) configuration complementary to a polygonal (hexagonal) cavity in the socket 54.
  • the socket 54 may be permanently or semi-permanently mounted on the right end of the axle 42, for example, by an "Allen” or internal "hex" head bolt received in a coaxial threaded bore in the axle 42.
  • the axle 42 preferably includes an enlarged diameter cylindrical portion (not shown) and a smaller diameter cylindrical portion (not shown) extending coaxially leftwardly from the enlarged portion (in the direction toward the cutting blade 24), with both the enlarged and smaller diameter portions being rotatably received in the bore of the bushing 44.
  • the left shoulder (not shown) of the enlarged portion of the axle 42 and a complementary shoulder in the bore of the bushing 44 prevent axial movement of the axle 42 in the leftward direction away from the socket 54 (downwardly in figure 2).
  • the smaller diameter cylindrical portion is housed in the portion of the bushing 44 that is received in the side plate 18.
  • the cutting blade 24 is mounted on a polygonally-shaped mounting portion of the axle 42 that extends axially leftwardly (downwardly in figure 2) from the smaller diameter cylindrical portion of the axle 42.
  • the mounting portion of the axle 42 has a generally square-shaped cross section that corresponds to a square-shaped opening through the center of the cutting blade 24, and a threaded left end portion extends axially outwardly from the square-shaped portion for threadably receiving a conventional lock nut 56 or other suitable fastener.
  • the cutting blade 24 and/or the lock nut 56 prevent axial movement of the axle 42 in the rightward direction toward the socket 54 (upwardly in figure 2).
  • the cutting blade 24 and axle 42 may alternatively be formed in one integral piece, in which case the configuration of the axle 42 would be changed to permit assembly.
  • integral and “one piece construction” refer to a single part that is manufactured in a single continuous piece, as opposed to parts that are assembled from component parts.
  • the axle and drive piece (not shown) of the ratchet mechanism may also be integrally formed as one continuous piece, in which case the socket 54 would be eliminated from the assembly.
  • axle 42 and cutting blade 24 it is desirable that they be rigidly fixed or connected together so that the desired relationship can be maintained between the cutting blade 24 and the side plate 18.
  • the internal shoulder (not shown) of the bushing 44 and the "left" shoulder of the enlarged cylindrical portion of the axle 24 prevent the cutting blade 24 from moving away from the side plate 18.
  • the central hub portion 72 of the cutting blade 24 may be spring biased toward the side plate 18 to help maintain the cutting blade 24 in engagement with the cutting portion 28 of the side plate 18.
  • the notch-defining edges 20 of the side plate 18 are generally U-shaped in side elevation, with generally parallel "legs” or edge portions (also at 20) extending generally forwardly from an arcuate end portion 58 to the forward end 30 of the side plate 18.
  • the arcuate end portion 58 is positioned generally adjacent and below the axle 42 so that a portion of the cutting blade 24 is exposed through the notch 22.
  • the elongate notch 22 and finger 34 may have lengths, for example, of approximately 30mm between the arcuate end portion 58 and the forward end 30 of the side plate 18.
  • the distance between the parallel edge portions 20 is sufficient to permit the cast 12, including the shell 16 and wrapping 14, to be placed through the notch 22 against the cutting blade 24.
  • the distance between these parallel edge portions 22 may be approximately 17mm.
  • An arcuate channel 60 is formed in the right side of the side plate 18 between the arcuate end portion 58 and the rearward end 32 of the side plate 18.
  • the channel 60 is tapered outwardly in the rearward direction (rightwardly in figures 1 and 5) from the notch 22 to the rearward end 32 of the side plate 18.
  • the arcuate channel 60 may be tapered at an angle A-2 of approximately 10 degrees.
  • the taper of the arcuate channel 60 facilitates separating cut portions of the cast 12 by acting as a wedge to wedge the cut portions apart as the assembly 10 is advanced through the cast 12. This wedge-action of the channel 60 is believed to help prevent binding of the cutting blade 24 in the cast 12.
  • the arcuate walls of the channel 60 also help guide the assembly 10 through the cast 12. More specifically, the walls of the channel 60 are preferably parallel to one another and spaced apart a distance substantially equal to the distance between the parallel edge portions 22.
  • the walls of the arcuate channel 60 extend linearly rearwardly (rightwardly in figures 1 and 8) from the parallel edge portions 22 of the notch 20, and the surfaces forming the channel 60 are smoothly contoured in order to facilitate movement of the cut portions of the cast 12 along the channel 60.
  • the longitudinal axis of the column 62 of the handle 48 may be conveniently offset at an angle A-3 of approximately ten degrees from the common longitudinal axis of the notch 20 and arcuate channel 60. While other orientations of the handle 48 relative to the notch 20 and arcuate channel 60 may be employed, the illustrated orientation is believed to be ergonomically effective in facilitating travel of the assembly 10, especially of the finger 34, through the cast 12.
  • the handle 48 preferably includes an ergonomically configured grip portion 64 extending generally perpendicularly from the forward end of the column 62 (leftward in figure 1).
  • the cutting blade 24 is preferably of generally conical or frustoconical configuration, and includes a plurality of generally radially outwardly extending teeth 66.
  • the "base" 68 of the conical or frustoconical blade 24 provides a substantially flat surface (also 68) in sliding engagement with the substantially flat right major surface of the side plate 18.
  • At least one, but preferably three to five elongate recesses are formed in the base 68 of the cutting blade 24. These recesses 70 are adapted to receive small amounts of cast dust or loose material to prevent jamming of the cutting blade 24.
  • cut-outs or recesses (not shown) may be provided in the right major surface of the side plate 18.
  • the teeth 66 of the cutting blade 24 are shown in the drawing (e.g., figure 5) as being tapered in the radially outward direction toward the base 68.
  • the teeth 66 may be tapered at an angle A-4 of approximately 35 degrees.
  • the taper of the teeth 66 is believed to help maintain the teeth 66 in sliding scissors-like engagement with the right major surface and cutting portion 28 of the side plate 18.
  • the taper of the teeth 66 also helps to strengthen the teeth 66, since the teeth 66 are thicker in their radially inward direction.
  • the cast shell 16 preferably tends to urge the cutting blade 24 in the direction toward the side plate 18 to help maintain the teeth 66 in sliding scissors-like engagement with the cutting portion 28 of the side plate 18.
  • the cutting blade 24 may conveniently have an outer diameter of approximately 55mm, and an enlarged annular hub portion 72 having an outer diameter of approximately 20mm.
  • the leading edges 74 (figure 4) of the teeth 66 are preferably formed at an angle A-5 of approximately 20 degrees with respect to radial lines extending radially outwardly from the axis of rotation of the cutting blade 24.
  • the cutting blade 24 shown in figure 4 is designed to be rotated in the clockwise direction in the figure so that the teeth 66 move across the notch 20 toward the cutting portion 28 of the side plate.
  • the leading edges 74 are skewed at the angle A-5 in the trailing direction (counterclockwise in figure 4) radially outwardly along the cutting blade 24.
  • the length of the leading edges 74 may be approximately 10mm, and the teeth 66 are preferably slightly thicker along their leading edges 74 than along their trailing portion (e.g., between the leading edge 74 of one tooth 66 and the leading edge 74 of the next tooth 66.
  • the teeth 66 are most preferably tapered in the trailing circumferential direction (counterclockwise in figure 4) from their leading edges 74 in order to prevent binding of the trailing portions of the teeth 66 in the material of the cast 12.
  • the assembly 10 preferably cuts the cast 12 by simultaneously functioning both as a "saw” and as “shears". That is, the teeth 66 of the cutting blade 24 "saw” through the rigid shell 16 of the cast 12 by removing small portions of the material of the shell 16, and the teeth 66 of the cutting blade 24 "shear” the soft wrapping 14 by tensioning and shearing the wrapping 14, and possibly a portion of the shell 16, between the cutting portion 28 of the side plate 18 and the teeth 66 of the blade 24.
  • the "saw” mechanism involves the removal of cast material by continually removing material from the shell 16 with the teeth 66
  • the "shear” mechanism involves tensioning the wrapping 14 between the cutting portion 28 of the side plate 18 and the teeth 66 of the cutting blade so that either the cutting portion 28 or the teeth 66 sever the wrapping 14.
  • sliding scissors-like engagement refers to the sliding engagement between the teeth 66 of the cutting blade 24 and the cutting portion 28 of the side plate 18 that facilitates shearing the soft wrapping 14.
  • Figure 6 illustrates a second embodiment of a cutting blade 124 of the invention wherein the plurality of elongate teeth 166 extend generally radially outwardly, and define a plurality of elongate slots 176, 178 extending generally radially inwardly of the cutting blade 124.
  • the slots 176, 178 are adapted to receive a portion of the cast 12 to shear the cast 12 between the teeth 166 and the cutting portion 28 of the side plate 18.
  • Four of the slots 178 preferably extend radially inwardly farther than the other slots 176.
  • the longer slots 178 may have lengths that are approximately twice the lengths of the shorter slots 176.
  • the teeth 166 of the cutting blade 124 are tapered in the radially outward direction, and the cutting blade 124 includes an enlarged annular hub portion 172.
  • a cast separator generally designated 80 may be mounted on the side plate 18 rearwardly of the notch 22.
  • the separator 80 is adapted for spreading portions of the cast 12 that have been cut in order to facilitate advancing the assembly 10 and to prevent binding of the cutting blade 24 in the cast 12.
  • the separator 80 may be removably mounted on a rearward portion of the side plate 18 by, for example, two "Allen" or hex head bolts or any other suitable means.
  • the separator 80 preferably includes an elongate rod portion 82 extending generally rearwardly from the side plate 18, and a guide member 84 mounted adjacent the rearward end of the rod portion 82.
  • the guide member 84 has an outwardly-facing annular guide channel 86 for receiving the portions of the cast 12 that have been cut. As shown in figure 8, the guide channel 86 is positioned along a common plane with the longitudinal axis of the arcuate channel 60 and notch 22 of the side plate 18. Alternatively, two outwardly-facing guide channels (not shown) may be provided. Such guide channels would preferably form a wedge shaped structure having an angle of divergence substantially equal to the angle A-2 of the taper of the arcuate channel 60.
  • the assembly 10 is used to cut through the cast 12 as illustrated in figure 3.
  • a portion of the cast 12 is introduced into the notch 22 of the side plate 18 and into contact with the teeth 66 or 166 cutting blade 24 or 124, with the finger 34 of the side plate 18 separating the cutting blade 24 from the patient 40.
  • the cutting blade 24 or 124 is then rotated relative to the cutting portion 28 of the side plate 18 by manually reciprocating the crank arm 26, while traction is manually maintained on the handle 64 as illustrated by the arrow 88 in figure 1 to advance the assembly 10 forwardly through the cast 12 as the cutting blade 24 or 124 is shearing the cast 12.
  • the cast 12 After the cast 12 has been cut, it may be removed from the patient 40.
  • the cutting blade 24 or 124 is preferably rotated in the direction wherein the teeth 66 or 166 move across the notch 22 in the direction toward the cutting portion 28 of the finger 34.
  • the cutting blade 24 or 124 may conveniently (1) cut the rigid shell 16 by removing material therefrom with its teeth 66 or 166 in the manner of a saw blade, (2) grab and tension the wrapping 14, and possibly a portion of the shell 12, with its teeth 66 or 166 against the cutting portion 28 of the side plate 18, and (3) shear or slit the wrapping 14 and the tensioned portion of the shell 12 between the cutting blade 24 or 124 and the cutting portion 28 of the side plate 18 in the manner of a pair of scissors.
  • the illustrated assembly 10 is adapted for right handed operation, with the operator's left hand maintaining traction on the handle 64 while the right hand operates the crank arm 26.
  • the assembly 10 could be readily adapted for left handed operation by reversing the positions of the handle 64 and crank arm 26 so that the operator's right hand maintains traction on the handle while the left hand operates the crank arm.
  • cutting blade 24 or 124 could be repositioned along the "left" side of the side plate 18 so that the crank arm 26 and cutting blade 24 or 124 are along the same side of the side plate.
  • a blade guard (not shown) could be mounted or formed on the side plate 18 to cover the teeth 66, 166 of the cutting blade 24, 124.
  • an arcuate or crescent-shaped guard could be formed along the body 36 of side plate 18 with the open portion of the crescent being positioned adjacent the notch 22 of the side plate so that the teeth 66, 166 are only exposed in the notch 22.

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  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Vascular Medicine (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Epidemiology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Surgical Instruments (AREA)
  • Knives (AREA)

Description

  • This invention relates generally to a cutter, and more particularly to a cast cutter that is adapted to cut through a cast of the type having a rigid shell and soft or flexible wrapping underlying the shell.
  • Background of the Invention
  • Casts of the type used to set broken bones, for example, are made of plaster, as well as various synthetic resin materials, such as various fiberglass/resin composite casting materials sold by the Minnesota Mining and Manufacturing Company of St. Paul, Minnesota, U.S.A. See, for example, European Patent Publication Nos. 0 035 517; 0 221 669; and 0 226 287; and U.S. Pat. Nos. 4,609,578 and 4,774,937. Advantages of fiberglass/resin composite materials include gas permeability, light weight, and transparency to X-rays.
  • Casts ordinarily consist of a tubular stockinet or an elongate strip or bandage that is placed or wrapped, for example, around a patients injured limb, a layer of synthetic cast padding wrapped around the stockinet, and a plurality of layers of the fiberglass-resin composite or plaster material wrapped around the padding to form a rigid shell. Such cast padding and stockinet is typically made from very flexible woven or nonwoven materials, such as cotton, polyester or other fibers. Cast padding and stockinet will sometimes be collectively referred to herein as "wrapping".
  • Cast shells have typically been removed by using powered oscillating saws, which are noisy and may create a substantial quantity of dust. In order to prevent injury to the patient, these saws are usually adapted to be oscillated at a high frequency and low amplitude. Despite that precaution, the saw can cause burns or cuts in some situations, and notwithstanding any actual danger, patients, especially small children, may be frightened by the saw. U.S. Pat. No. 4,637,391 (Schlein) describes a surgical saw blade for cutting plaster or fiberglass casts. That saw blade is adapted to oscillate at high frequency (e.g., 12,000-14,000 oscillations per minute) and low amplitude. An adjustable depth stop is provided to limit the depth that the saw blade may cut.
  • French Patent No. 2 522 498 (Rothman) describes a surgical cast cutter that includes a saw blade that is oscillated at low amplitude to prevent injury of the patient. That cutter includes the feature of vacuum exhaust of dust particles created in cutting the cast. French Patent No. 2 473 878 (Saito) and U.S. Pat. No. 4,543,718 (Duescher) describe other cast cutters employing oscillatory motion and vacuum exhaust of dust particles.
  • In addition to the creation of dust, one problem with oscillating cast cutters is that typically they do not cut through the soft layers or wrapping of the cast. This is because the low amplitude, high frequency motion of the blade is usually ineffective against soft tissue or fabric. As a result, the soft layers or wrappings underlying the cast are typically removed as a separate step after cutting the cast. For example, U.S. Pat. No. 3,365,798 (Cunningham) describes a device for cutting the soft wrappings underlying plaster casts after the shell has been cut. That device includes a shoe which may be positioned between the wrappings and the patient and two inwardly-facing intersecting blades that cut the wrapping as the device is pushed or pulled through a slot cut in the cast.
  • Another method of protecting a patient from the saw blade of a cast cutter has been to place a guard between the patient and the saw blade. For example, U.S. Pat. Nos. 2,344,262 (Odierna et al.) and 2,366,017 (Fortune) describe powered cast cutters including a guard or shoe for protecting the patient from the saw blade, with the guard or shoe separating the saw blade from the patient's skin. The shoe of those cutters are placed under the cast (i.e., between the cast and the patient's skin).
  • U.S. Pat. No. 590,163 (Pearson) describes a manually operated cast cutting tool having a guard for protecting the patient from the saw blade. That guard includes a foot that is positioned between the cast and the flesh of the patient. A crank-arm is provided for manually rotating the saw blade. U.S. Pat. No. 2,571,527 (Boyer) shows another cast cutter having a guard that is placed between the cast and the patient. U.S. Pat. No. 2,217,923 (Silverman) shows powered and manually operated cast saws that include a guide shoe having a semi-circular groove for receiving the saw blade to accommodate different thicknesses of casts.
  • U.S. Pat. No. 1,269,373 (Brinck) describes a cutting device having a shield plate that is slipped between the cast and the patient, and a circular cutting member that is movable relative to the shield plate as the cast is cut. That device includes a crank for rotating the cutting member, and a pin to limit motion of the cutting member toward the shield plate as the cast is cut.
  • U.S. Pat. No. 2,232,733 (Scarboro) shows a powered cast remover that includes a guard that separates the saw blade from the patient and a suction fan for removing the cuttings and placing them in a container.
  • While cast cutting devices that employ a guard between the cast and the patient and a conventional rotary saw blade may efficiently, quietly and safely cut the rigid shell of the cast, it has been found that they are ineffective at cutting the flexible wrappings underlying the shell. The wrappings are frequently caught by the teeth of the saw blade and wrapped around the axle of the saw blade, with the result that such devices have typically become jammed on the cast shortly after starting the cut (e.g., within 4-6 inches (100-150mm)).
  • U.S. Pat. No. 4,611,585 (Steidle) describes a cast cutter that includes a fixed center blade that is positioned between the cast and patient and two motor-driven oscillating blades disposed along opposite sides of the center blade. That cutter includes a movable cover hood which apparently ensures that the blades are only exposed when the blades are applied to the plaster cast itself.
  • US-A-2,180,457 discloses a cast cutter comprising a stationary cutting blade including a notch for receiving a cast and a rotatable cutting blade. The rotatable blade has arcuate teeth with pointed ends that bite into the cast and force the same against the stationary cutting blade to cut the cast.
  • Casts have also been cut by embedding wire in the cast material when forming the cast, and pulling the wire to cut the cast. For example, French Patent No. 2,442,628 (Wahl) and French Patent No. 2,401,658 (Lampke et al.) show cutting wires that are embedded in the material of the cast. See, also, West German Patent No. 3,342,918 (Strang).
  • Summary of the Invention
  • An assembly of the invention is designed to cut completely through a cast of the type having flexible wrapping and a rigid shell in a single cutting operation. Among other things, the assembly is designed to reduce the production of "saw dust" when cutting casts, and preferably to be driven by manual power.
  • According to the present invention there is provided an assembly for cutting through a cast of the type having a rigid shell and flexible wrapping underlying the shell, the assembly comprising:
       a side plate having edges defining an elongate notch for receiving the cast, said edges including at least one cutting portion;
       a cutting blade rotatably mounted on the side plate adjacent the notch;
       said blade having a plurality of radially outwardly extending teeth, the cutting blade and side plate having substantially flat surfaces in sliding scissor-like engagement;
       means for rotating the cutting blade relative to the side plate;
       said teeth being maintained in sliding scissors-like engagement with the cutting portion of the side plate to tension and shear the flexible wrapping of the cast between the cutting portion and the cutting blade as the cutting blade is rotated, characterised in that the teeth are saw teeth which are also configured for saw-like removal of material from the shell of the cast to saw through the shell as the cutting blade is rotated, and further characterised in that the cutting blade is of generally conical or frustoconical overall configuration having a base providing the substantially flat surface of the blade and the teeth are tapered in the radially outward direction, whereby the cutting blade is adapted to simultaneously cut through the flexible wrapping of the cast in the manner of scissors and saw through the rigid shell in the manner of a saw.
  • Other features will be pointed out hereinafter.
  • Brief Description of the Drawing
  • The invention will be further described with reference to the drawing wherein corresponding reference characters indicate corresponding parts throughout the several views of the drawing, and wherein:
    • Figure 1 is a left side elevation of an assembly of the invention;
    • Figure 2 is a top plan of the assembly of figure 1;
    • Figure 3 is a left side elevation of the assembly of figures 1 and 2, illustrating cutting a cast with the assembly;
    • Figure 4 is a right side elevation of a side plate of the assembly of figures 1-3;
    • Figure 5 is a cross-sectional view substantially along line 5-5 in figure 4;
    • Figure 6 is a right side elevation of a second embodiment of a cutting blade of the invention;
    • Figure 7 is a bottom plan view of the assembly of figures 1-5, showing a cast separator mounted on the assembly;
    • Figure 8 is a left side elevation of the assembly and cast separator of figure 7; and
    • Figure 9 is a cross-sectional view substantially along line 9-9 of figure 1, illustrating a guard or finger of the side plate.
    Detailed Description of Preferred Embodiments
  • An assembly of the invention is indicated generally by the reference numeral 10, and is adapted for cutting through a cast 12 of the type typically having flexible wrapping 14 and a rigid shell 16. As used herein, "wrapping" refers to any type of soft or flexible material that underlies the shell 16 of a cast 12, and typically includes a layer of stockinet and a layer of padding of polyester woven, knit or nonwoven material.
  • As shown in figure 1, the assembly 10 generally comprises a side plate 18 having edges generally designated 20 defining an elongate notch 22 for receiving the cast 12, and a cutting blade 24 rotatably mounted on the side plate 18 adjacent the notch 22. Means (e.g., crank arm 26) is provided for rotating the cutting blade 24 relative to the side plate 18. The edges 20 defining the notch 22 include at least one cutting portion 28. The cutting blade 24 is maintained in sliding scissors-like engagement with the cutting portion 28 of the side plate 18 to shear the wrapping 14 and shell 16 between the cutting portion 28 and the cutting blade 24 as the cutting blade 24 is rotated.
  • More specifically, the side plate 18 has forward and rearward ends 30 and 32, and a finger 34 extending generally forwardly from the body 36 of the side plate 18. An edge 28 of the finger 34 forms the cutting portion 28 of the side plate 18. As shown in figure 9, the cutting portion 28 of the edge 28 is smooth and sharp, and preferably formed at an angle A-1 only slightly less than ninety degrees (e.g., 87-89 degrees). As illustrated in figure 3, the finger 34 is adapted to be placed between the wrapping 14 of the cast 12 and the patient 40 to protect the patient 40 from the cutting blade 24 and to facilitate tensioning and shearing the wrapping 14 between the cutting portion 28 and the teeth 66 of the cutting blade 24.
  • The "left" major surface of the side plate 18, which is the surface in sliding engagement with the cutting blade 24, is substantially flat and smooth. The words "right", "left", "rightwardly" and "leftwardly" are used herein merely for convenience, and are used in reference to the intended direction of motion of the assembly 10 indicated by the arrow 41 in the figures. "Rightwardly" refers to the upward direction in figure 2, and "leftwardly" refers to the downward direction in figure 3. "Forward" or "forwardly" refer to the direction indicated by the arrow 41 in figure 3, and "rearward" or "rearwardly" refer to the direction opposite the arrow 41.
  • The means for rotating the cutting blade 24 preferably comprises the manually operable crank arm 26 shown in figures 1-3, 7 and 8, although a powered drive motor (not shown) or any other suitable drive mechanism could alternatively be provided for rotating the cutting blade 24. An axle 42 is rotatably mounted through a self-lubricating bearing or bushing 44 in the side plate 18. The cutting blade 24 is mounted adjacent one end of the axle 42, and the crank arm 26 is releasably mountable on the axle 42 adjacent the other end thereof. The bushing 44 and the axle 42 are preferably formed of dissimilar metals to reduce. frictional wear between the axle 42 and bushing 44. For example, the bushing 44 may be formed of brass, and the axle 42 formed of hardened steel. The bushing 44 may be either press fit or threadably received in a bore through the side plate 18.
  • Most preferably, the crank arm 26 includes a ratchet mechanism 46 so that the crank arm 26 may be ratcheted relative to the axle 42 to rotate the axle 42 and cutting blade 24, and a handle 48 is provided extending forwardly from the side plate 18 to facilitate operation of the crank arm 26 and pulling the side plate 18 forwardly through the cast 12 as the crank arm 26 is operated.
  • As shown in figures 1-3, the crank arm 26 and ratchet mechanism 46 may take the form of a conventional socket wrench (at 26). A wrench of this type typically has an offset handle (at 26), a four-sided male drive piece (not shown), and the ratchet mechanism 46 for ensuring that the drive piece rotates in only one direction as the handle 26 is reciprocated as indicated by the arrow designated 50 in figure 3. The ratchet mechanism 46 may be of the type that can be adjusted to reverse the action of the mechanism 46 to permit rotating the drive piece in the other direction, although a ratchet mechanism 46 that can only be driven in one direction is preferred (e.g. for clockwise rotation of the cutting blade 24 as indicated by arrow 52 in figures 1 and 8).
  • A spring-loaded bearing (not shown) is spring biased laterally outwardly from the drive piece of the crank arm 26 to securely and releasably mount a conventional socket 54 (figure 2) on the drive piece. An elongate extension or rod (not shown) may be provided between the drive piece and the socket 54 in the event that movement of the crank arm 26 would otherwise be restricted. A plurality (e.g., 4-6) of such extension rods of various lengths may be provided with the assembly 10, with the operator of the assembly 10 selecting the appropriate extension rod and mounting it between the socket 54 and the drive piece of the crank arm 26.
  • The right end of the axle 42 (the upper end in figure 2) is tightly and securely received in the socket 54, and preferably has a polygonal (e.g., hexagonal) configuration complementary to a polygonal (hexagonal) cavity in the socket 54. The socket 54 may be permanently or semi-permanently mounted on the right end of the axle 42, for example, by an "Allen" or internal "hex" head bolt received in a coaxial threaded bore in the axle 42.
  • The axle 42 preferably includes an enlarged diameter cylindrical portion (not shown) and a smaller diameter cylindrical portion (not shown) extending coaxially leftwardly from the enlarged portion (in the direction toward the cutting blade 24), with both the enlarged and smaller diameter portions being rotatably received in the bore of the bushing 44. The left shoulder (not shown) of the enlarged portion of the axle 42 and a complementary shoulder in the bore of the bushing 44 prevent axial movement of the axle 42 in the leftward direction away from the socket 54 (downwardly in figure 2). The smaller diameter cylindrical portion is housed in the portion of the bushing 44 that is received in the side plate 18.
  • The cutting blade 24 is mounted on a polygonally-shaped mounting portion of the axle 42 that extends axially leftwardly (downwardly in figure 2) from the smaller diameter cylindrical portion of the axle 42. Most preferably, the mounting portion of the axle 42 has a generally square-shaped cross section that corresponds to a square-shaped opening through the center of the cutting blade 24, and a threaded left end portion extends axially outwardly from the square-shaped portion for threadably receiving a conventional lock nut 56 or other suitable fastener. The cutting blade 24 and/or the lock nut 56 prevent axial movement of the axle 42 in the rightward direction toward the socket 54 (upwardly in figure 2).
  • The cutting blade 24 and axle 42 may alternatively be formed in one integral piece, in which case the configuration of the axle 42 would be changed to permit assembly. As used herein, "integral" and "one piece construction" refer to a single part that is manufactured in a single continuous piece, as opposed to parts that are assembled from component parts. The axle and drive piece (not shown) of the ratchet mechanism may also be integrally formed as one continuous piece, in which case the socket 54 would be eliminated from the assembly.
  • Regardless of the particular construction of the axle 42 and cutting blade 24, it is desirable that they be rigidly fixed or connected together so that the desired relationship can be maintained between the cutting blade 24 and the side plate 18. In this regard, it may also be noted that the internal shoulder (not shown) of the bushing 44 and the "left" shoulder of the enlarged cylindrical portion of the axle 24 prevent the cutting blade 24 from moving away from the side plate 18. Alternatively or in addition, the central hub portion 72 of the cutting blade 24 may be spring biased toward the side plate 18 to help maintain the cutting blade 24 in engagement with the cutting portion 28 of the side plate 18.
  • As shown in figure 1, the notch-defining edges 20 of the side plate 18 are generally U-shaped in side elevation, with generally parallel "legs" or edge portions (also at 20) extending generally forwardly from an arcuate end portion 58 to the forward end 30 of the side plate 18. The arcuate end portion 58 is positioned generally adjacent and below the axle 42 so that a portion of the cutting blade 24 is exposed through the notch 22. The elongate notch 22 and finger 34 may have lengths, for example, of approximately 30mm between the arcuate end portion 58 and the forward end 30 of the side plate 18. The distance between the parallel edge portions 20 is sufficient to permit the cast 12, including the shell 16 and wrapping 14, to be placed through the notch 22 against the cutting blade 24. For example, the distance between these parallel edge portions 22 may be approximately 17mm.
  • An arcuate channel 60 is formed in the right side of the side plate 18 between the arcuate end portion 58 and the rearward end 32 of the side plate 18. The channel 60 is tapered outwardly in the rearward direction (rightwardly in figures 1 and 5) from the notch 22 to the rearward end 32 of the side plate 18. For example, the arcuate channel 60 may be tapered at an angle A-2 of approximately 10 degrees.
  • The taper of the arcuate channel 60 facilitates separating cut portions of the cast 12 by acting as a wedge to wedge the cut portions apart as the assembly 10 is advanced through the cast 12. This wedge-action of the channel 60 is believed to help prevent binding of the cutting blade 24 in the cast 12. The arcuate walls of the channel 60 also help guide the assembly 10 through the cast 12. More specifically, the walls of the channel 60 are preferably parallel to one another and spaced apart a distance substantially equal to the distance between the parallel edge portions 22. The walls of the arcuate channel 60 extend linearly rearwardly (rightwardly in figures 1 and 8) from the parallel edge portions 22 of the notch 20, and the surfaces forming the channel 60 are smoothly contoured in order to facilitate movement of the cut portions of the cast 12 along the channel 60.
  • As illustrated in figure 8, the longitudinal axis of the column 62 of the handle 48 may be conveniently offset at an angle A-3 of approximately ten degrees from the common longitudinal axis of the notch 20 and arcuate channel 60. While other orientations of the handle 48 relative to the notch 20 and arcuate channel 60 may be employed, the illustrated orientation is believed to be ergonomically effective in facilitating travel of the assembly 10, especially of the finger 34, through the cast 12. The handle 48 preferably includes an ergonomically configured grip portion 64 extending generally perpendicularly from the forward end of the column 62 (leftward in figure 1).
  • As illustrated in figures 4 and 5, the cutting blade 24 is preferably of generally conical or frustoconical configuration, and includes a plurality of generally radially outwardly extending teeth 66. The "base" 68 of the conical or frustoconical blade 24 provides a substantially flat surface (also 68) in sliding engagement with the substantially flat right major surface of the side plate 18.
  • At least one, but preferably three to five elongate recesses (e.g., recess 70 in figure 1), are formed in the base 68 of the cutting blade 24. These recesses 70 are adapted to receive small amounts of cast dust or loose material to prevent jamming of the cutting blade 24.
  • Alternatively, "cut-outs" or recesses (not shown) may be provided in the right major surface of the side plate 18.
  • The teeth 66 of the cutting blade 24 are shown in the drawing (e.g., figure 5) as being tapered in the radially outward direction toward the base 68. For example, the teeth 66 may be tapered at an angle A-4 of approximately 35 degrees. The taper of the teeth 66 is believed to help maintain the teeth 66 in sliding scissors-like engagement with the right major surface and cutting portion 28 of the side plate 18. The taper of the teeth 66 also helps to strengthen the teeth 66, since the teeth 66 are thicker in their radially inward direction. In any event, the cast shell 16 preferably tends to urge the cutting blade 24 in the direction toward the side plate 18 to help maintain the teeth 66 in sliding scissors-like engagement with the cutting portion 28 of the side plate 18.
  • The cutting blade 24 may conveniently have an outer diameter of approximately 55mm, and an enlarged annular hub portion 72 having an outer diameter of approximately 20mm. The leading edges 74 (figure 4) of the teeth 66 are preferably formed at an angle A-5 of approximately 20 degrees with respect to radial lines extending radially outwardly from the axis of rotation of the cutting blade 24. The cutting blade 24 shown in figure 4 is designed to be rotated in the clockwise direction in the figure so that the teeth 66 move across the notch 20 toward the cutting portion 28 of the side plate. The leading edges 74 are skewed at the angle A-5 in the trailing direction (counterclockwise in figure 4) radially outwardly along the cutting blade 24.
  • The length of the leading edges 74 may be approximately 10mm, and the teeth 66 are preferably slightly thicker along their leading edges 74 than along their trailing portion (e.g., between the leading edge 74 of one tooth 66 and the leading edge 74 of the next tooth 66. The teeth 66 are most preferably tapered in the trailing circumferential direction (counterclockwise in figure 4) from their leading edges 74 in order to prevent binding of the trailing portions of the teeth 66 in the material of the cast 12.
  • The assembly 10 preferably cuts the cast 12 by simultaneously functioning both as a "saw" and as "shears". That is, the teeth 66 of the cutting blade 24 "saw" through the rigid shell 16 of the cast 12 by removing small portions of the material of the shell 16, and the teeth 66 of the cutting blade 24 "shear" the soft wrapping 14 by tensioning and shearing the wrapping 14, and possibly a portion of the shell 16, between the cutting portion 28 of the side plate 18 and the teeth 66 of the blade 24. The "saw" mechanism involves the removal of cast material by continually removing material from the shell 16 with the teeth 66, and the "shear" mechanism involves tensioning the wrapping 14 between the cutting portion 28 of the side plate 18 and the teeth 66 of the cutting blade so that either the cutting portion 28 or the teeth 66 sever the wrapping 14. As used herein, "sliding scissors-like engagement" refers to the sliding engagement between the teeth 66 of the cutting blade 24 and the cutting portion 28 of the side plate 18 that facilitates shearing the soft wrapping 14.
  • Figure 6 illustrates a second embodiment of a cutting blade 124 of the invention wherein the plurality of elongate teeth 166 extend generally radially outwardly, and define a plurality of elongate slots 176, 178 extending generally radially inwardly of the cutting blade 124. The slots 176, 178 are adapted to receive a portion of the cast 12 to shear the cast 12 between the teeth 166 and the cutting portion 28 of the side plate 18. Four of the slots 178 preferably extend radially inwardly farther than the other slots 176. For example, the longer slots 178 may have lengths that are approximately twice the lengths of the shorter slots 176. As is the case with cutting blade 24, the teeth 166 of the cutting blade 124 are tapered in the radially outward direction, and the cutting blade 124 includes an enlarged annular hub portion 172.
  • As illustrated in figures 7 and 8, a cast separator generally designated 80 may be mounted on the side plate 18 rearwardly of the notch 22. The separator 80 is adapted for spreading portions of the cast 12 that have been cut in order to facilitate advancing the assembly 10 and to prevent binding of the cutting blade 24 in the cast 12. The separator 80 may be removably mounted on a rearward portion of the side plate 18 by, for example, two "Allen" or hex head bolts or any other suitable means. The separator 80 preferably includes an elongate rod portion 82 extending generally rearwardly from the side plate 18, and a guide member 84 mounted adjacent the rearward end of the rod portion 82.
  • The guide member 84 has an outwardly-facing annular guide channel 86 for receiving the portions of the cast 12 that have been cut. As shown in figure 8, the guide channel 86 is positioned along a common plane with the longitudinal axis of the arcuate channel 60 and notch 22 of the side plate 18. Alternatively, two outwardly-facing guide channels (not shown) may be provided. Such guide channels would preferably form a wedge shaped structure having an angle of divergence substantially equal to the angle A-2 of the taper of the arcuate channel 60.
  • In operation, the assembly 10 is used to cut through the cast 12 as illustrated in figure 3. A portion of the cast 12 is introduced into the notch 22 of the side plate 18 and into contact with the teeth 66 or 166 cutting blade 24 or 124, with the finger 34 of the side plate 18 separating the cutting blade 24 from the patient 40. The cutting blade 24 or 124 is then rotated relative to the cutting portion 28 of the side plate 18 by manually reciprocating the crank arm 26, while traction is manually maintained on the handle 64 as illustrated by the arrow 88 in figure 1 to advance the assembly 10 forwardly through the cast 12 as the cutting blade 24 or 124 is shearing the cast 12. After the cast 12 has been cut, it may be removed from the patient 40.
  • The cutting blade 24 or 124 is preferably rotated in the direction wherein the teeth 66 or 166 move across the notch 22 in the direction toward the cutting portion 28 of the finger 34. The cutting blade 24 or 124 may conveniently (1) cut the rigid shell 16 by removing material therefrom with its teeth 66 or 166 in the manner of a saw blade, (2) grab and tension the wrapping 14, and possibly a portion of the shell 12, with its teeth 66 or 166 against the cutting portion 28 of the side plate 18, and (3) shear or slit the wrapping 14 and the tensioned portion of the shell 12 between the cutting blade 24 or 124 and the cutting portion 28 of the side plate 18 in the manner of a pair of scissors.
  • It will be observed that the illustrated assembly 10 is adapted for right handed operation, with the operator's left hand maintaining traction on the handle 64 while the right hand operates the crank arm 26. Of course, the assembly 10 could be readily adapted for left handed operation by reversing the positions of the handle 64 and crank arm 26 so that the operator's right hand maintains traction on the handle while the left hand operates the crank arm.
  • In addition, the cutting blade 24 or 124 could be repositioned along the "left" side of the side plate 18 so that the crank arm 26 and cutting blade 24 or 124 are along the same side of the side plate.
  • It is particularly contemplated that a blade guard (not shown) could be mounted or formed on the side plate 18 to cover the teeth 66, 166 of the cutting blade 24, 124. For example, an arcuate or crescent-shaped guard could be formed along the body 36 of side plate 18 with the open portion of the crescent being positioned adjacent the notch 22 of the side plate so that the teeth 66, 166 are only exposed in the notch 22.
  • As various changes could be made in the above constructions and methods without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the drawing shall be interpreted as illustrative and not in a limiting sense.

Claims (6)

  1. A assembly (10) for cutting through a cast (12) of the type having a rigid shell (16) and flexible wrapping (14) underlying the shell, the assembly (10) comprising:
       a side plate (18) having edges (20) defining an elongate notch (22) for receiving the cast (12), said edges (20) including at least one cutting portion (28);
       a cutting blade (24, 124) rotatably mounted on the side plate (18) adjacent the notch (22);
       said blade having a plurality of radially outwardly extending teeth (66, 166), the cutting blade (24, 124) and side plate (18) having substantially flat surfaces (68) in sliding scissor-like engagement;
       means (26, 42, 44, 46, 54) for rotating the cutting blade (24, 124) relative to the side plate (18);
       said teeth (66, 166) being maintained in sliding scissors-like engagement with the cutting portion (28) of the side plate (18) to tension and shear the flexible wrapping (14) of the cast (12) between the cutting portion (28) and the cutting blade (24, 124) as the cutting blade (24, 124) is rotated, characterised in that the teeth are saw teeth (66, 166) which are also configured for saw-like removal of material from the shell (16) of the cast (12) to saw through the shell (16) as the cutting blade (24, 124) is rotated, and further characterised in that the cutting blade (24, 124) is of generally conical or frustoconical overall configuration having a base (68) providing the substantially flat surface (68) of the blade (24, 124) and the teeth (66, 166) are tapered in the radially outward direction, whereby the cutting blade (24, 124) is adapted to simultaneously cut through the flexible wrapping (14) of the cast in the manner of scissors and saw through the rigid shell (16) in the manner of a saw.
  2. An assembly (10) according to claim 1 wherein the cutting blade (124) has a plurality of elongate teeth (166) extending generally radially outwardly, with the teeth (166) defining a plurality of elongate slots (176, 178) extending generally radially inwardly of the cutting blade (124) for receiving a portion of the cast (12) to shear the cast (12) between the teeth (166) of the blade (124) and the cutting portion (28) of the side plate (18).
  3. An assembly (10) according to claims 1 or 2 further characterised in that the substantially flat surface (68) of the cutting blade (24) has a recess (70) therein for receiving material removed from the cast (12).
  4. An assembly (10) according to claim 2 wherein the side plate (18) has forward and rearward ends (30 and 32), a body (36) and a finger (34) extending generally forwardly from the body (36) and having the edge (28) forming the cutting portion (28) of the side plate (18), the finger (34) being adapted to be placed between the wrapping (14) of the cast (12) and the patient to protect the patient from the cutting blade (24, 124), the notch (22) extending generally forwardly from adjacent the cutting blade (24, 124).
  5. An assembly (10) according to any preceding claim wherein the means for rotating the blade (24, 124) comprises:
       an axle (42) rotatably mounted through the side plate (18) for rotatably supporting the cutting blade (24);
       a manually operable crank arm (26) releasably mounted on the axle (42) for rotating the axle (42) to rotate the cutting blade (24) relative to the cutting portion (28) of the side plate (18); and
       a ratchet mechanism (46) for ratcheting the crank arm (26) relative to the axle (42);
       the side plate (18) further including a handle (48) adapted to facilitate manual operation of the crank arm (26).
  6. An assembly (10) according to claim 5 further comprising a separator (80) mounted on the side plate (18) for separating portions of the cast (12) that have been cut, the separator (80) having two outwardly facing channel portions (86) for receiving the portions of the cast (12) that have been cut.
EP90304764A 1989-05-01 1990-05-01 Cast cutter Expired - Lifetime EP0396397B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR8905828 1989-05-01
FR8905828A FR2646597A1 (en) 1989-05-01 1989-05-01 CUTTING APPARATUS AND ITS APPLICATION

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Publication Number Publication Date
EP0396397A1 EP0396397A1 (en) 1990-11-07
EP0396397B1 true EP0396397B1 (en) 1993-12-22

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EP90304764A Expired - Lifetime EP0396397B1 (en) 1989-05-01 1990-05-01 Cast cutter

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US (1) US5020226A (en)
EP (1) EP0396397B1 (en)
JP (1) JPH0313132U (en)
KR (1) KR970000474Y1 (en)
AU (1) AU627573B2 (en)
BR (1) BR9002022A (en)
CA (1) CA2015704A1 (en)
DE (1) DE69005353D1 (en)
FR (1) FR2646597A1 (en)

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Also Published As

Publication number Publication date
DE69005353D1 (en) 1994-02-03
FR2646597A1 (en) 1990-11-09
AU5454490A (en) 1990-11-08
AU627573B2 (en) 1992-08-27
KR900019978U (en) 1990-12-12
US5020226A (en) 1991-06-04
KR970000474Y1 (en) 1997-01-24
JPH0313132U (en) 1991-02-08
BR9002022A (en) 1991-08-13
CA2015704A1 (en) 1990-11-02
EP0396397A1 (en) 1990-11-07

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